Design transplanting work stations for efficiency

Tech Solutions

Design transplanting work stations for efficiency

With the right work station design, growers can reduce inefficiencies and increase overall production.

John W. Bartok Jr.

Patching operation with tilted table and conveyor removal of flats

Photo: John W. Bartok

A workstation is an area where an employee does a series of repetitive tasks; for example, transplanting, potting, patching or preparing cuttings. The layout of this area can have a large influence on the efficiency of the work that is accomplished.

Basic principles of workstation design and layout have been developed based on time and motion studies, and these have been applied to many industrial operations and tasks. These same principles can be used to improve many of the tasks associated with growing plants. A reduction of 20 to 30 percent in time often results.

A drawing should be made on graph paper to scale to develop the best layout. It should include the location of the worker, materials and tools.

The following basic principles should be followed:

1. Workstation height

The best table height is elbow height. Adjustment should be provided for different-sized workers. It is best to provide for both standing and sitting positions as greater efficiency is achieved when workers change positions.

Elbow height should be measured in the standing position. Height adjustment in the chair or stool can bring the worker up to the standing height level. Comfortable chairs with back support and footrests will create less fatigue.

Layout for efficient transplanting workstation

Graphic: John W. Bartok

2. Hand and arm motion

Where possible, both hands should operate as mirror images and both be working at all times. Holding something in one hand while the other hand is performing a task is not very productive. If reaching for plants or other things, the distance should be the same for both hands.

Continuous or curved motions are the most natural and productive. Start-and-stop motions require more energy and time. Try to avoid lifting and instead, slide the flats.

The reach from the normal arm rest position should be limited to a 24-inch radius to the side and front for women and 27 inches for men. The assembly area is best within 16 inches to 18 inches of the resting elbow position.

3. Work space

A space of 3 feet by 3 feet is normal for the worker unless a wider work area is needed. Space to the rear should be left for movement of carts.

Adequate lighting over the work area will increase efficiency and reduce eye strain. It should be located above the workstation so as not to create shadows. A level of 40 to 60 foot-candles is necessary. Glare from lights and windows should be avoided.

4. Location of materials

Locate materials as close to the work area as possible. The farther you have to reach for something, the more time it takes. Walking 10 feet to get, pick up, or set down a flat will add two to three cents to the production cost of the flat.

Tipping the flat toward the transplanter can reduce the distance by as much as 10 inches. Plugs should be dislodged to effect easier removal. Locate dibble board in a permanent holder so the worker does not have to look to retrieve it.

Prefilled containers from the flat or pot filler are best conveyed to the work area. A belt conveyor with an accumulating station works best. Gravity should be used wherever possible.

A conveyor located to the back of the work station is best for sending a transplanted container on its way to the greenhouse. The flat or pot is just pushed onto the conveyor. Alternate locations are underneath the workstation bench or behind the worker. This involves moving or turning, which takes more time. If carts are used, they should be located as close as possible to each worker.

Inexpensive fixtures or brackets can be installed to hold materials in position while they are being worked on. This frees up one hand that would normally be required for support.

Putting the above principles into practice in your operation can reduce worker fatigue and increase production output.

John is an agricultural engineer, an emeritus extension professor at the University of Connecticut and a regular contributor to Greenhouse Management. He is an author, consultant and certified technical service provider doing greenhouse energy audits for USDA grant programs in New England.jbartok@rcn.com